/*                  W R I T E _ B R L . C P P
 * BRL-CAD
 *
 * Copyright (c) 2008-2025 United States Government as represented by
 * the U.S. Army Research Laboratory.
 *
 * This library is free software; you can redistribute it and/or
 * modify it under the terms of the GNU Lesser General Public License
 * version 2.1 as published by the Free Software Foundation.
 *
 * This library is distributed in the hope that it will be useful, but
 * WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 * Lesser General Public License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public
 * License along with this file; see the file named COPYING for more
 * information.
 */
/** @file write_brl.cpp
 *
 * INTAVAL Target Geometry File to BRL-CAD converter:
 * write primitives into BRL-CAD database
 *
 *  Origin -
 *	TNO (Netherlands)
 *	IABG mbH (Germany)
 */

#include "nmg.h"
#include "rt/geom.h"
#include "write_brl.h"


double IntavalUnitInMm = 0.1;

size_t arb6_counter = 0;
size_t arb8_counter = 0;
size_t pipe_counter = 0;
size_t rcc_counter  = 0;
size_t sph_counter  = 0;
size_t rpp_counter  = 0;
size_t trc_counter  = 0;
size_t bot_counter  = 0;


void addTriangle
(
    int*    faces,
    size_t& num_faces,
    size_t a,
    size_t b,
    size_t c
) {
    // is it a triangle?
    if ((a == b) || (b == c) || (c == a))
	return;

    // search for duplicate triangle
    for (size_t i = 0; i < num_faces; ++i) {
	if (faces[i * 3] == (int)a) {
	    if (faces[i * 3 + 1] == (int)b) {
		if (faces[i * 3 + 2] == (int)c)
		    return;
	    } else if (faces[i * 3 + 1] == (int)c) {
		if (faces[i * 3 + 2] == (int)b)
		    return;
	    }
	} else if (faces[i * 3] == (int)b) {
	    if (faces[i * 3 + 1] == (int)a) {
		if (faces[i * 3 + 2] == (int)c)
		    return;
	    } else if (faces[i * 3 + 1] == (int)c) {
		if (faces[i * 3 + 2] == (int)a)
		    return;
	    }
	} else if (faces[i * 3] == (int)c) {
	    if (faces[i * 3 + 1] == (int)b) {
		if (faces[i * 3 + 2] == (int)a)
		    return;
	    } else if (faces[i * 3 + 1] == (int)a) {
		if (faces[i * 3 + 2] == (int)b)
		    return;
	    }
	}
    }

    // add a new triangle
    faces[num_faces * 3 + 0] = (int)a;
    faces[num_faces * 3 + 1] = (int)b;
    faces[num_faces * 3 + 2] = (int)c;

    ++num_faces;
}


void smoothBot
(
    rt_wdb* wdbp,
    char*   name
) {
    directory* dp = db_lookup(wdbp->dbip, name, LOOKUP_QUIET);

    if (dp != RT_DIR_NULL) {
	rt_db_internal intern;

	if (rt_db_get_internal(&intern, dp, wdbp->dbip, 0, &rt_uniresource) == ID_BOT) {
	    rt_bot_internal* bot = static_cast<rt_bot_internal*>(intern.idb_ptr);

	    rt_bot_smooth(bot, name, wdbp->dbip, M_PI_4);

	    if (rt_db_put_internal(dp, wdbp->dbip, &intern, &rt_uniresource) < 0) {
		bu_bomb("Database write failure in smoothBot\n");
	    }
	}

	rt_db_free_internal(&intern);
    }
}


void writeTitle
(
    rt_wdb* wdbp,
    char*   string
) {
   mk_id(wdbp, string);
}


void writePipe
(
    rt_wdb* wdbp,
    Form&   form,
    bool    translate
) {
    char    name[NAMELEN + 1];
    fastf_t radius = form.radius1 * IntavalUnitInMm;
    bu_list pipePointList;

    mk_pipe_init(&pipePointList);

    for (size_t i = 1; i < form.npts; ++i) {
	point_t pipePoint;

	if (translate) {
	  VADD2(pipePoint, form.data.pt[i-1], form.tr_vec);
	} else {
	  VMOVE(pipePoint, form.data.pt[i-1]);
	}

	VSCALE(pipePoint, pipePoint, IntavalUnitInMm);

	mk_add_pipe_pnt(&pipePointList, pipePoint, radius, 2 * radius / 3., radius / 2.);
    }

    sprintf(name, "s%lu.pipe", (long unsigned int)++pipe_counter);
    if (mk_pipe(wdbp, name, &pipePointList) == 0) {
	addToRegion(form.compnr, name);

	if (form.s_compnr >= 1000)
	    excludeFromRegion(form.s_compnr, name);
    }

    mk_pipe_free(&pipePointList);
}


void writeRectangularBox
(
    rt_wdb* wdbp,
    Form&   form,
    bool    translate
) {
    char    name[NAMELEN + 1];
    point_t min, max;

    if (translate) {
      VADD2(min, form.data.pt[0], form.tr_vec);
      VADD2(max, form.data.pt[1], form.tr_vec);
    } else {
      VMOVE(min, form.data.pt[0]);
      VMOVE(max, form.data.pt[1]);
    }

    VSCALE(min, min, IntavalUnitInMm);
    VSCALE(max, max, IntavalUnitInMm);

    sprintf(name, "s%lu.rpp", (long unsigned int)++rpp_counter);
    mk_rpp(wdbp, name, min, max);
    addToRegion(form.compnr, name);

    if (form.s_compnr >= 1000)
	excludeFromRegion(form.s_compnr, name);
}


void writeSolidBot
(
    rt_wdb* wdbp,
    Form&   form,
    bool    translate
) {
    char    name[NAMELEN + 1];
    fastf_t vertices[MAX_NPTS * 3];

    if (translate) {
	for (size_t i = 0; i < form.data.bot.num_vertices; ++i) {
	    vertices[i * 3]     = (form.data.bot.vertices[i * 3] + form.tr_vec[0]) * IntavalUnitInMm;
	    vertices[i * 3 + 1] = (form.data.bot.vertices[i * 3 + 1] + form.tr_vec[1]) * IntavalUnitInMm;
	    vertices[i * 3 + 2] = (form.data.bot.vertices[i * 3 + 2] + form.tr_vec[2]) * IntavalUnitInMm;
	}
    } else {
	for (size_t i = 0; i < form.data.bot.num_vertices; ++i) {
	    vertices[i * 3]     = form.data.bot.vertices[i * 3] * IntavalUnitInMm;
	    vertices[i * 3 + 1] = form.data.bot.vertices[i * 3 + 1] * IntavalUnitInMm;
	    vertices[i * 3 + 2] = form.data.bot.vertices[i * 3 + 2] * IntavalUnitInMm;
	}
    }

    sprintf(name, "s%lu.sbot", (long unsigned)++bot_counter);

    mk_bot(wdbp,
	   name,
	   RT_BOT_SOLID,
	   RT_BOT_UNORIENTED,
	   0,
	   form.data.bot.num_vertices,
	   form.data.bot.num_faces,
	   vertices,
	   form.data.bot.faces,
	   0,
	   0);

    smoothBot(wdbp, name);
    addToRegion(form.compnr, name);

    if (form.s_compnr >= 1000)
	excludeFromRegion(form.s_compnr, name);
}


void writeRingModeBox
(
    rt_wdb* wdbp,
    Form&   form,
    bool    translate
) {
    char name[NAMELEN + 1];

    // get the transformed outer points
    vect_t outer[MAX_NPTS] = {VINIT_ZERO};

    if (translate) {
	for (size_t i = 0; i < form.npts; ++i)
	  VADD2(outer[i], form.data.pt[i], form.tr_vec);
    } else {
      for (size_t i = 0; i < form.npts; ++i) {
	  VMOVE(outer[i], form.data.pt[i]);
      }
    }

    for (size_t i1 = 0; i1 < form.npts; ++i1) {
      VSCALE(outer[i1], outer[i1], IntavalUnitInMm);
    }

    // compute inner points
    vect_t inner[MAX_NPTS] = {VINIT_ZERO};

    for (size_t i2 = 0; i2 < form.npts; ++i2) {
	vect_t a, b, c;

	VMOVE(a, outer[i2]);
	if (i2 == 0) {
	  VMOVE(b, outer[i2 + 1]);
	  VMOVE(c, outer[form.npts-1]);
	} else if (i2 == form.npts-1) {
	  VMOVE(b, outer[0]);
	  VMOVE(c, outer[i2 - 1]);
	} else {
	  VMOVE(b, outer[i2 + 1]);
	  VMOVE(c, outer[i2 - 1]);
	}

	vect_t b_v, c_v;
	VSUB2(b_v, b, a);
	VSUB2(c_v, c, a);

	vect_t n_v;
	VCROSS(n_v, b_v, c_v);

	// with on b_v
	vect_t width_b_v;
	VCROSS(width_b_v, b_v, n_v);

	if (VDOT(width_b_v, c_v) < 0)
	  VREVERSE(width_b_v, width_b_v);

	VUNITIZE(width_b_v);
	VSCALE(width_b_v, width_b_v, form.width * IntavalUnitInMm);

	// with on c_v
	vect_t width_c_v;
	VCROSS(width_c_v, c_v, n_v);

	if (VDOT(width_c_v, b_v) < 0)
	  VREVERSE(width_c_v, width_c_v);

	VUNITIZE(width_c_v);
	VSCALE(width_c_v, width_c_v, form.width * IntavalUnitInMm);

	// intersection
	VUNITIZE(b_v);
	VUNITIZE(c_v);

	vect_t cb_v;
	VSUB2(cb_v, b_v, c_v);
	fastf_t l_cb_v = MAGNITUDE(cb_v);

	if (!NEAR_ZERO(l_cb_v, VUNITIZE_TOL)) {
	    vect_t width_cb_v;
	    VSUB2(width_cb_v, width_b_v, width_c_v);

	    vect_t s_b_v;
	    VSCALE(s_b_v, b_v, MAGNITUDE(width_cb_v) / l_cb_v);

	    vect_t res;
	    VADD2(res, a, width_c_v);
	    VADD2(res, res, s_b_v);

	    VMOVE(inner[i2], res);
	} else {
	  VMOVE(inner[i2], outer[i2]);
	}
    }

    // bot parameters
    // vertices
    size_t num_vertices = 0;
    size_t outer_i[MAX_NPTS];
    size_t inner_i[MAX_NPTS];
    fastf_t vertices[MAX_NPTS * 3];

    for (size_t i3 = 0; i3 < form.npts; ++i3) {
	size_t i = 0;

	// outer
	// search for duplicate vertex
	for (; i < num_vertices; ++i) {
	  if (NEAR_EQUAL(outer[i3][0], vertices[3 * i], VUNITIZE_TOL) &&
	      NEAR_EQUAL(outer[i3][1], vertices[3 * i + 1], VUNITIZE_TOL) &&
	      NEAR_EQUAL(outer[i3][2], vertices[3 * i + 2], VUNITIZE_TOL)) {
		outer_i[i3] = i;
		break;
	    }
	}

	if (i == num_vertices) {
	    // add a new vertex
	    vertices[num_vertices * 3]     = outer[i3][0];
	    vertices[num_vertices * 3 + 1] = outer[i3][1];
	    vertices[num_vertices * 3 + 2] = outer[i3][2];

	    outer_i[i3] = num_vertices;
	    ++num_vertices;
	}

	// inner
	// search for duplicate vertex
	for (i = 0; i < num_vertices; ++i) {
	    if (NEAR_EQUAL(inner[i3][0], vertices[3 * i], VUNITIZE_TOL) &&
		NEAR_EQUAL(inner[i3][1], vertices[3 * i + 1], VUNITIZE_TOL) &&
		NEAR_EQUAL(inner[i3][2], vertices[3 * i + 2], VUNITIZE_TOL)) {
		inner_i[i3] = i;
		break;
	    }
	}

	if (i == num_vertices) {
	    // add a new vertex
	    vertices[num_vertices * 3]     = inner[i3][0];
	    vertices[num_vertices * 3 + 1] = inner[i3][1];
	    vertices[num_vertices * 3 + 2] = inner[i3][2];

	    inner_i[i3] = num_vertices;
	    ++num_vertices;
	}
    }

    // faces
    size_t num_faces = 0;
    int faces[MAX_TRIANGLES * 3];

    for (size_t i4 = 0; i4 < form.npts; ++i4) {
	size_t nextIndex = (i4 + 1) % form.npts;

	addTriangle(faces, num_faces, outer_i[i4], outer_i[nextIndex], inner_i[i4]);
	addTriangle(faces, num_faces, inner_i[i4], outer_i[nextIndex], inner_i[nextIndex]);
    }

    fastf_t thickness[MAX_TRIANGLES];

    for (size_t i5 = 0; i5 < num_faces; ++i5)
	thickness[i5] = form.thickness * IntavalUnitInMm;

    bu_bitv* faceMode = bu_bitv_new(num_faces);

    sprintf(name, "s%lu.pbot", (long unsigned)++bot_counter);

    mk_bot(wdbp,
	   name,
	   RT_BOT_PLATE,
	   RT_BOT_UNORIENTED,
	   0,
	   num_vertices,
	   num_faces,
	   vertices,
	   faces,
	   thickness,
	   faceMode);

    addToRegion(form.compnr, name);

    if (form.s_compnr >= 1000)
	excludeFromRegion(form.s_compnr, name);

    bu_bitv_free(faceMode);
}


void writePlateBot
(
    rt_wdb* wdbp,
    Form&   form,
    bool    translate
) {
    char name[NAMELEN + 1];

    fastf_t vertices[MAX_NPTS * 3];

    if (translate) {
	for (size_t i = 0; i < form.data.bot.num_vertices; ++i) {
	    vertices[i * 3]     = (form.data.bot.vertices[i * 3] + form.tr_vec[0]) * IntavalUnitInMm;
	    vertices[i * 3 + 1] = (form.data.bot.vertices[i * 3 + 1] + form.tr_vec[1]) * IntavalUnitInMm;
	    vertices[i * 3 + 2] = (form.data.bot.vertices[i * 3 + 2] + form.tr_vec[2]) * IntavalUnitInMm;
	}
    } else {
	for (size_t i = 0; i<form.data.bot.num_vertices; ++i) {
	    vertices[i * 3]     = form.data.bot.vertices[i * 3] * IntavalUnitInMm;
	    vertices[i * 3 + 1] = form.data.bot.vertices[i * 3 + 1] * IntavalUnitInMm;
	    vertices[i * 3 + 2] = form.data.bot.vertices[i * 3 + 2] * IntavalUnitInMm;
	}
    }

    fastf_t thickness[MAX_TRIANGLES];

    for (size_t i = 0; i < form.data.bot.num_faces; ++i)
	thickness[i] = form.thickness * IntavalUnitInMm;

    bu_bitv* faceMode = bu_bitv_new(form.data.bot.num_faces);

    sprintf(name, "s%lu.pbot", (long unsigned)++bot_counter);

    mk_bot(wdbp,
	   name,
	   RT_BOT_PLATE,
	   RT_BOT_UNORIENTED,
	   0,
	   form.data.bot.num_vertices,
	   form.data.bot.num_faces,
	   vertices,
	   form.data.bot.faces,
	   thickness,
	   faceMode);

    addToRegion(form.compnr, name);

    if (form.s_compnr >= 1000)
	excludeFromRegion(form.s_compnr, name);

    bu_bitv_free(faceMode);
}


void writeCone
(
    rt_wdb* wdbp,
    Form&   form,
    bool    translate
) {
    char   name[NAMELEN + 1];
    vect_t base, height;

    if (translate) {
      VADD2(base, form.data.pt[0], form.tr_vec);
    } else {
      VMOVE(base, form.data.pt[0]);
    }

    VSUB2(height, form.data.pt[1], form.data.pt[0]);

    VSCALE(base, base, IntavalUnitInMm);
    VSCALE(height, height, IntavalUnitInMm);

    fastf_t radius1 = form.radius1 * IntavalUnitInMm;
    fastf_t radius2 = form.radius2 * IntavalUnitInMm;

    sprintf(name, "s%lu.trc", (long unsigned)++trc_counter);
    mk_trc_h(wdbp, name, base, height, radius1, radius2);
    addToRegion(form.compnr, name);

    if (form.s_compnr >= 1000)
	excludeFromRegion(form.s_compnr, name);
}


void writeCylinder
(
    rt_wdb* wdbp,
    Form&   form,
    bool    translate
) {
    char   name[NAMELEN + 1];
    vect_t base, height;

    if (translate) {
      VADD2(base, form.data.pt[0], form.tr_vec);
    } else {
      VMOVE(base, form.data.pt[0]);
    }

    VSUB2(height, form.data.pt[1], form.data.pt[0]);

    VSCALE(base, base, IntavalUnitInMm);
    VSCALE(height, height, IntavalUnitInMm);

    fastf_t radius = form.radius1 * IntavalUnitInMm;

    sprintf(name, "s%lu.rcc", (long unsigned)++rcc_counter);
    mk_rcc(wdbp, name, base, height, radius);
    addToRegion(form.compnr, name);

    if (form.s_compnr >= 1000)
	excludeFromRegion(form.s_compnr, name);
}


void writeArb8
(
    rt_wdb* wdbp,
    Form&   form,
    bool    translate
) {
    char    name[NAMELEN + 1];
    point_t shuffle[8];

    if (translate) {
      VADD2(shuffle[0], form.data.pt[0], form.tr_vec);
      VADD2(shuffle[1], form.data.pt[7], form.tr_vec);
      VADD2(shuffle[2], form.data.pt[3], form.tr_vec);
      VADD2(shuffle[3], form.data.pt[1], form.tr_vec);
      VADD2(shuffle[4], form.data.pt[6], form.tr_vec);
      VADD2(shuffle[5], form.data.pt[5], form.tr_vec);
      VADD2(shuffle[6], form.data.pt[4], form.tr_vec);
      VADD2(shuffle[7], form.data.pt[2], form.tr_vec);
    } else {
      VMOVE(shuffle[0], form.data.pt[0]);
      VMOVE(shuffle[1], form.data.pt[7]);
      VMOVE(shuffle[2], form.data.pt[3]);
      VMOVE(shuffle[3], form.data.pt[1]);
      VMOVE(shuffle[4], form.data.pt[6]);
      VMOVE(shuffle[5], form.data.pt[5]);
      VMOVE(shuffle[6], form.data.pt[4]);
      VMOVE(shuffle[7], form.data.pt[2]);
    }

    for (size_t i = 0; i < 8; ++i) {
      VSCALE(shuffle[i], shuffle[i], IntavalUnitInMm);
    }

    sprintf(name, "s%lu.arb8", (long unsigned)++arb8_counter);
    mk_arb8(wdbp, name, reinterpret_cast<fastf_t*>(shuffle));
    addToRegion(form.compnr, name);

    if (form.s_compnr >= 1000)
	excludeFromRegion(form.s_compnr, name);
}

// Local Variables:
// tab-width: 8
// mode: C++
// c-basic-offset: 4
// indent-tabs-mode: t
// c-file-style: "stroustrup"
// End:
// ex: shiftwidth=4 tabstop=8
